Citation
Abstract
Observations of the Global Positioning System (GPS) will enable a reduceddynamic technique for achieving subdecimeter orbit determination of Earth-orbiting satellites. With this technique, information on the transition between satellite states at different observing times is furnished by both a formal dynamic model and observed satellite positional change (which is inferred kinematically from continuous GPS carrier-phase data). The relative weighting of dynamic and kinematic information can be freely varied. Covariance studies show that in situations where observing geometry is poor and the dynamic model is good, the model dominates determination of the state transition; where the dynamic model is poor and the geometry strong, carrier phase governs the determination of the transition. When neither kinematic nor dynamic information ts clearly superior, the reduced-dynamic combination of the two can substantially improve the orbit-determination solution. Guidelines are given here for selecting a near-optimal weighting for the reduceddynamic solution, and sensitivity of solution accuracy to this weighting is examined.
Details
- Volume
- 42-101
- Published
- May 15, 1990
- Pages
- 13–25
- File Size
- 756.3 KB